UNIPROT:P04179 - FACTA Search

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Query: UNIPROT:P04179 (MnSOD)
2,777 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have isolated maize cDNAs encoding three manganese-containing superoxide dismutases (MnSODs) distinct from the one previously reported. Molecular analyses indicate that multiple MnSOD transcripts are encoded by different, though similar, genes in the maize genome. A single MnSOD gene has been reported in all other organisms examined to date. The deduced amino acid sequences show that these maize MnSOD proteins have a mitochondrial transit peptide and that the first 9 amino acids (matrix-targeting sequence) in the transit peptide are conserved. This suggests that all the maize MnSOD proteins are mitochondria-associated isozymes. RNA blot analysis demonstrated that each member of the maize MnSOD multigene family is both spatially and developmentally regulated. One gene, Sod3.3, was predominantly expressed in the embryo late in embryogenesis. Patterns of increased Mn-SOD transcript accumulation are shown to be associated with increased mitochondrial activity during plant growth and development. The influence of mitochondrial metabolism on the expression of the nuclear MnSOD genes is discussed.
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PMID:Maize mitochondrial manganese superoxide dismutases are encoded by a differentially expressed multigene family. 841 98

Transcriptional regulation of the sodA gene, a member of the soxRS regulon encoding the manganese-containing superoxide dismutase (MnSOD; superoxide:superoxide oxidoreductase, EC 1.15.1.1) of Escherichia coli, was examined in a variety of regulatory mutants. Diamide, an oxidant that causes the anaerobic biosynthesis of the MnSOD polypeptide and also facilitates insertion of manganese at the active site, was found to anaerobically induce MnSOD in both soxRS and fur arcA fnr strains. Metal chelating agents also caused anaerobic induction of MnSOD in a fur arcA fnr triple mutant; however, this induction of MnSOD and of glucose-6-phosphate dehydrogenase (G6PD) by 1,10-phenanthroline was dependent on an intact soxRS locus. A strain of E. coli bearing a fusion of the soxS promoter to lacZ was used to demonstrate that both diamide and 1,10-phenanthroline caused anaerobic activation of soxS transcription. These results indicate that (i) both diamide and 1,10-phenanthroline induce the soxRS regulon anaerobically by stimulation of soxS transcription; (ii) diamide, but not metal chelators, also induces MnSOD biosynthesis by a soxRS-independent mechanism, perhaps mediated by effects on fur, arcA, or fnr-mediated repression of sodA; and (iii) the soxRS locus contains a metal-binding component and is responsive to the redox status of the cell.
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PMID:Induction of manganese-containing superoxide dismutase in anaerobic Escherichia coli by diamide and 1,10-phenanthroline: sites of transcriptional regulation. 846 Jan 39

The sodA gene from Erwinia chrysanthemi strain 3937 was cloned by functional complementation of an Escherichia coli sodA sodB mutant and sequenced. We identified a 639-bp open reading frame, which encodes a protein that is 85% identical to the E. coli manganese-containing superoxide dismutase MnSOD. Promoter elements of this gene were identified by transcriptional mapping experiments. We constructed an E. chrysanthemi deltasodA mutant by reverse genetics. The deltasodA mutation resulted in the absence of a cytoplasmic SOD, which displays the same characteristics as those of MnSOD. The deltasodA mutant was more sensitive to paraquat than the wild-type strain. This mutant could macerate potato tubers, similar to the wild-type strain. In contrast, when inoculated on African violets, the mutant produced, at most, only small necrotic lesions. If the inoculum was supplemented with the superoxide anion-scavenging metalloporphyrin MnTMPyP or purified SOD and catalase, the deltasodA mutant was able to macerate the inoculated zone. Generation of superoxide anion by African violet leaves inoculated with E. chrysanthemi was demonstrated with nitroblue tetrazolium as an indicator. Therefore, at the onset of infection, E. chrysanthemi cells encounter an oxidative environment and require active protective systems against oxidative damages such as MnSOD to overcome these types of conditions.
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PMID:Essential role of superoxide dismutase on the pathogenicity of Erwinia chrysanthemi strain 3937. 1138 71

Polyamines, ubiquitous polycationic compounds, are involved in many cellular responses and relieve paraquat-induced cytotoxicity in Escherichia coli. We constructed a new E. coli mutant strain, JIL528, which is deficient in the biosynthesis of both putrescine and spermidine, to examine the physiological role of polyamines under oxidative stress caused by paraquat. Putrescine and spermidine downregulate the expression of soxS induced by paraquat in a concentration-dependent manner. The product of SoxS is a key regulator governing cellular responses against oxidative stress in E. coli. The downregulation of soxS expression by polyamines was not shown in the soxR mutant background. Glucose-6-phosphate dehydrogenase (G6PDH; encoded by zwf) and manganese-containing superoxide dismutase (Mn-SOD; encoded by sodA) activities induced by paraquat were decreased by exogenous polyamines. The induction of the zwf expression by paraquat was also decreased by exogenous polyamines. The polyamine-deficient mutant strain JIL528 showed a higher soxS expression than its parent polyamine-proficient wild type BW1157, on exogenous supplementation of paraquat concentrations below 1 micromol/L. While the growth rate of the mutant was decreased, soxS expression was increased in a concentration-dependent manner above 0.01 micromol/L of paraquat. In contrast, growth inhibition of the mutant by paraquat was relieved, and soxS was no longer induced by exogenous putrescine (1 mmol/L). In conclusion, polyamines protect against paraquat-induced toxicity but downregulate soxS expression, suggesting that the protective role of polyamines against oxidative damage induced by paraquat results in soxS downregulation.
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PMID:Polyamines reduce paraquat-induced soxS and its regulon expression in Escherichia coli. 1266 85

The gene CP0718 encoding a putative manganese-containing superoxide dismutase of Chlamydia pneumoniae AR39 was cloned and expressed in Escherichia coli. Characterization showed that the expressed protein with a monomeric molecular mass of 23.1 kDa had superoxide dismutase (SOD) activity and the cofactor of CpSOD was a bivalent manganese cation. It is unexpected that this enzyme was hyperthermostable, and maintained about 90% activity after incubation at 70 degrees C for 60 min. Manganese binding residues found in the SOD sequences from different species are conserved in CpSOD. Bioinformatics analysis compared with Propionibacterium shermanii MnSOD was performed to elucidate the CpSOD hyperthermostability based on amino acid sequences.
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PMID:A thermostable manganese-containing superoxide dismutase from pathogen Chlamydia pneumoniae. 1504 96

Superoxide dismutases (SODs) are antioxidant enzymes that catalyze the dismutation of superoxide into hydrogen peroxide. There are 3 kinds of isozymes: extracellular superoxide dismutase (EC-SOD), manganese-containing superoxide dismutase (Mn-SOD) and copper- and zinc-containing superoxide dismutase (CuZn-SOD). To examine the expression of SOD isozymes in lungs injured by crystalline silica, we intratracheally instilled male Wistar rats with 2 mg (8 mg/kg) of crystalline silica and investigated the mRNA, protein level and distribution of SOD isozymes in the rat lungs using RT-PCR, western blot analysis and immunostaining, respectively at from 3 d to 180 d of recovery following the exposure. EC-SOD mRNA levels significantly increased from 3 d to 90 d and the EC-SOD protein level was significantly higher after 90 and 180 d recovery in the crystalline silica exposed groups than in the control groups. Mn-SOD increased in silica treated rat lungs at both mRNA and protein levels, peaking at 30 d post-exposure. CuZn-SOD mRNA levels were decreased at 3, 7 and 30 d, and CuZn-SOD protein levels were also significantly lower than the control group at 90 and 180 d recovery. There was prominent EC-SOD immunostaining mainly in the plasma and alveolar macrophages and strong Mn-SOD staining in alveolar macrophages and interstitial cells of the proximal and distal portions of the alveolar duct following crystalline silica exposure. There was less CuZn-SOD staining in epithelial cells at terminal bronchioles in the crystalline silica-exposed group. These findings suggest that these SOD isozymes may be related to lung injury induced by crystalline silica.
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PMID:Differential expression of EC-SOD, Mn-SOD and CuZn-SOD in rat lung exposed to crystalline silica. 1757 5

The effectiveness of RNA interference (RNAi) is demonstrated in the lignin-degrading fungus Phanerochaete chrysosporium. The manganese-containing superoxide dismutase gene (MnSOD1) was used as the target for RNAi. The plasmid constructed for gene silencing contained a transcriptional unit for hairpin RNA expression. Significantly lower MnSOD expression at both the mRNA and protein activity levels was detected in RNAi transformants. Furthermore, even though P. chrysosporium possesses three copies of the MnSOD gene, this RNAi construct was sufficient to decrease the enzymatic activity by as much as 70% relative to control levels. Implementation of the RNAi technique in P. chrysosporium provides an alternative genetic tool for studies of gene function, particularly of essential genes or gene families.
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PMID:Gene silencing by RNA Interference in the white rot fungus Phanerochaete chrysosporium. 1860 4

Oxidative stress and mitochondrial dysfunction are common features in patients with sepsis and organ failure. Within mitochondria, superoxide is converted into hydrogen peroxide by MnSOD (manganese-containing superoxide dismutase), which is then detoxified by either the mGSH (mitochondrial glutathione) system, using the enzymes mGPx-1 (mitochondrial glutathione peroxidase-1), GRD (glutathione reductase) and mGSH, or the TRX-2 (thioredoxin-2) system, which uses the enzymes PRX-3 (peroxiredoxin-3) and TRX-2R (thioredoxin reductase-2) and TRX-2. In the present paper we investigated the relative contribution of these two systems, using selective inhibitors, in relation to mitochondrial dysfunction in endothelial cells cultured with LPS (lipopolysaccharide) and PepG (peptidoglycan). Specific inhibition of both the TRX-2 and mGSH systems increased the intracellular total radical production (P<0.05) and reduced mitochondrial membrane potentials (P<0.05). Inhibition of the TRX-2 system, but not mGSH, resulted in lower ATP production (P<0.001) with high metabolic activity (P<0.001), low oxygen consumption (P<0.001) and increased lactate production (P<0.001) and caspase 3/7 activation (P<0.05). Collectively these results show that the TRX-2 system appears to have a more important role in preventing mitochondrial dysfunction than the mGSH system in endothelial cells under conditions that mimic a septic insult.
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PMID:Mitochondrial protection by the thioredoxin-2 and glutathione systems in an in vitro endothelial model of sepsis. 2135 52

Organisms living in temperate and polar regions experience extensive seasonal changes in the physical and biotic environment, including temperature, insolation, and food availability, among other factors. Sessile intertidal organisms respond to such seasonal fluctuations largely through physiological and biochemical means, because their behavioral responses are severely limited. In this study, we used a proteomic approach to examine changes in seasonal protein expression of gill from the intertidal mussel Geukensia demissa, a keystone species of the western Atlantic salt marsh, over the course of one year. Gill tissue of mussels collected in summer had the greatest number of proteins significantly increased in abundance (37 of 592 spots detected on two-dimensional polyacrylamide gels), although autumn mussels revealed a comparable proportion of up-regulated proteins (31 spots). In contrast, the number of proteins changing in abundance in winter and spring mussels were substantially smaller (15 and 9, respectively). Identification of these proteins revealed both expected and unanticipated changes to the proteome. Maintenance of gill cilia dominates in the summer when filter-feeding is most active, as evidenced by cytoskeletal proteins such as tektin-4 and tubulin isoforms; a signal of protection from heat stress is also present in summer (e.g., heat shock cognate 70). In autumn oxidative stress protection (peroxiredoxin-5 and manganese-containing superoxide dismutase) and aerobic ATP synthetic capacity (ATP synthase subunits a and delta) appear to increase. In winter a signal of cold-induced oxidative stress is apparent (Mn-SOD and NADP-dependent isocitrate dehydrogenase), perhaps in association with heavy metal toxicity and exposure to pathogens. Gill tissue from spring shows relatively little environmental acclimatization, other than a possible increase in protein synthesis capacity.
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PMID:A year in the salt marsh: Seasonal changes in gill protein expression in the temperate intertidal mussel Geukensia demissa. 3279 80

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